Nonhomogeneous birth and death models for epidemic outbreak data
Publication date
2006-09-06
Authors
Broek, J. van den
Heesterbeek, J.A.P.
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Document Type
Article
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Abstract
In this paper, generalized nonlinear models are proposed in order to incorporate the following considerations
in modeling an epidemic disease outbreak statistically. (1) The dependence of the data is handled
with a nonhomogeneous death or a nonhomogeneous birth process. (2) The first stage of the outbreak
is described with an epidemic susceptibles-infectives-removed (SIR) model. Soon the control measures
taken will dominate the process. These measures are in addition to the natural epidemic removal process.
The prevalence is related to the censored infection times in such a way that the distribution function
and thus the survival function satisfy approximately the first equation of the SIR model. This leads in a
natural way to the Burr family of distributions. (3) The nonhomogeneous birth process handles the fact
that in practice, with some delay, infecteds are registered, but not susceptibles. (4) Finally, the ending of
the epidemic caused by the measures taken is incorporated through a modification of the survival function
with a final-size parameter, in the same way as is done in long-term survival models. These models
are applied to three outbreaks: The Dutch classical swine fever outbreak from 1997 to 1998, the footand-
mouth disease outbreak in Great Britain from 2001, and the Dutch avian influenza (H7N7) outbreak from 2003.
Keywords
Avian influenza (H7N7), Burr distribution, Classical swine fever, Foot-and-mouth disease, Force of infection, Negative binomial, Nonhomogeneous birth process, Nonhomogeneous death process, Reproductive power